Further Examining the Role of Cohesive Sediments in Munitions Mobility through Additional Infield Deployment of Smart Munitions and Application of a SERDP-developed Penetrometer

Dr. Arthur Trembanis | University of Delaware

MR20-1480

Objective

While the mechanisms for munitions burial in non-cohesive sediments are well established, be it through scour-burial processes (see the Office of Naval Research's mine burial studies) or granular sorting (Calantoni  MR-2320), the resistive nature of cohesive sediment to granular erosion reduces the likelihood of granular sorting as a primary mechanism for burial, inhibits scour (Inman and Jenkins, 2002), and may result in other mechanisms for burial not characteristic of non-cohesive sediments (Baeye et al., 2012; Sheremet et al., 2005). This study expands the research on the Munitions and Explosives of Concern (MEC) mobility and burial in cohesive sediments by investigating the geotechnical properties of cohesive sediments that contribute to MEC mobility and burial as observed in detailed field experiments in  MR-2730.  

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Technical Approach

Leveraging existing resources and knowledge gained from previous and ongoing SERDP Munitions Response studies, this study couples periodic site-wide geophysical surveying with contemporaneous in-field geotechnical sediment characterization through repetitive sampling and application of a SERDP supported penetrometer (Dr. Nina Stark  MR18-1233) at an munitions mobility and burial study site ( MR-2730).

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Interim Results

Sediment bearing capacity is shown to be an important predictor for surrogate burial in mixed-cohesive or cohesive sediments. A Hertzian contact model introduced here provides a simple method to predict munitions burial due to bearing capacity. This study additionally demonstrates methods to link sediment geotechnical properties such as bearing capacity to sonar classification/surficial sediment distributions maps.  

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Benefits

Results from this combined effort include better characterization of munitions mobility as influenced by cohesive sediment geotechnical properties, as well as providing an in-field demonstration of the penetrometer technology and methods being refined by  MR18-1233. Data from this study contributed significantly to the munitions mobility and burial analysis presented in  MR-2730 and assists in the continued development of existing expert system modeling of unexploded ordnance burial and mobility (e.g. Underwater Munitions Expert System, Rennie  MR-2645). The methods and results presented in this study provide additional information pertinent to formerly-used defense site (FUDS) management. Extrapolating subsurface properties based on surficial sediment distributions will reduce the amount of geotechnical sampling required at FUDS sites and allow for modeling of surrogate burial across a wide spatial domain.

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2021

Points of Contact

Principal Investigator

Arthur Trembanis

University of Delaware

Phone: 302-831-2498

Program Manager

Munitions Response

SERDP and ESTCP

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